Neutron stars are gold mines

James M. Lattimer

doi:10.1142/S0218301317400146

Neutron stars are gold mines

James M. Lattimer

Physics and Astronomy

Stony Brook University

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Neutron stars are not only mines for clues to dense matter physics but may also be the auspicious sources of half of all nuclei heavier than A = 60 in the universe, including the auric isotopes. Although the cold dense matter above the nuclear saturation density cannot be directly explored in the laboratory, gilded constraints on the properties of matter from 1 to 10 times higher density can now be panned from neutron star observations. We show how upcoming observations, such as gravitational wave from mergers, precision timing of pulsars, neutrinos from neutron star birth and X-rays from bursts and thermal emissions, will provide the bullion from which further advances can be smelted.

Original language	English
Article number	1740014
Journal	International Journal of Modern Physics E
Volume	26
Issue number	1-2
DOIs	https://doi.org/10.1142/S0218301317400146
State	Published - Jan 1 2017

Keywords

Neutron stars
dense matter
symmetry energy

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10.1142/S0218301317400146

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title = "Neutron stars are gold mines",

abstract = "Neutron stars are not only mines for clues to dense matter physics but may also be the auspicious sources of half of all nuclei heavier than A = 60 in the universe, including the auric isotopes. Although the cold dense matter above the nuclear saturation density cannot be directly explored in the laboratory, gilded constraints on the properties of matter from 1 to 10 times higher density can now be panned from neutron star observations. We show how upcoming observations, such as gravitational wave from mergers, precision timing of pulsars, neutrinos from neutron star birth and X-rays from bursts and thermal emissions, will provide the bullion from which further advances can be smelted.",

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AB - Neutron stars are not only mines for clues to dense matter physics but may also be the auspicious sources of half of all nuclei heavier than A = 60 in the universe, including the auric isotopes. Although the cold dense matter above the nuclear saturation density cannot be directly explored in the laboratory, gilded constraints on the properties of matter from 1 to 10 times higher density can now be panned from neutron star observations. We show how upcoming observations, such as gravitational wave from mergers, precision timing of pulsars, neutrinos from neutron star birth and X-rays from bursts and thermal emissions, will provide the bullion from which further advances can be smelted.

KW - Neutron stars

KW - dense matter

KW - symmetry energy

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ER -

Neutron stars are gold mines

Abstract

Keywords

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